DE4442019A1 - Magnetically operated position sensor in cylinder - Google Patents

Abstract

The position sensor consists of a cylindrical housing (1) divided into two pressure chambers (5,6) by a moving piston (4). One cylinder end (2), made of non-magnetic material, e.g., aluminium, has a finger-like projection (10) extending into the cylinder. A blind bore (11) of the projection holds a magnetically operated switch (12).A ring-shaped permanent magnet (17) is fixed to the piston and can slide over the projection with a small clearance. Pref., the piston is pot-shaped with the permanent magnet fitted inside the piston open end. The blind hole is positioned in an insert (10) and runs in the area of the pressure chambers.

Description

The invention relates to a position-monitored Piston accumulator with the in the preamble of claim 1 described features.

It is known that position monitoring in piston accumulators is generally not continuous monitoring, but rather a very specific position is monitored. This particular Position can correspond to a predetermined degree of filling, in which case the power switch, which is usually designed as a reed contact, can be used in two ways. For limitation to one the hydraulic pressure generator switched off directly or at least by a switching valve on the further supply of the print medium can be prevented. If it on the other hand is about a certain minimum fill level as Safety reserve or as readiness indicator in the Keeping hydraulic accumulators available can fall below this Degree of filling of the power switch or a downstream one Switch amplifier switch the pressure generator on again or cause the supply of pressure medium via a switching valve. On Another use case is the monitoring of Gas bias, whose drop due to gas losses below otherwise the same boundary conditions for a higher degree of filling and so that the power switch responds. One through that Switch generated signal (optical, acoustic, shutdown of the Drive) can then indicate the defect or its remedy and thus ensure the full functionality of the system.

In a known arrangement (DE-OS 24 31 605) is the blind hole for the power switch in a flat, screwed or through a union flange held bottom or lid arranged. In a basic version, the blind hole is arranged centrally and the permanent magnet that is fixed on or relatively movable to the Piston and is otherwise aligned with the blind bore, approaches the end of the blind bore and within the pressure chamber  triggers the switching process when the distance falls below a minimum out. Obviously, this type of triggering is not included high accuracy to realize, because in other versions a special switching element carrying the permanent magnet is used, which is in another, centrally from the pressure chamber outgoing blind hole is movable to which the blind hole for the power switch is closely adjacent, but runs in opposite directions. In this way, leaks on seals are avoided, however, for the second blind hole and the bracket and Guiding the special switching element an increased effort to be driven.

In contrast, it is an object of the invention, the effort for a to reduce exact switching or the switching behavior itself in To improve the sense of greater switching accuracy.

This object is achieved according to the invention with the Features of the characterizing part of claim 1. The advantage this arrangement is that inside the ring magnet forms a very homogeneous magnetic field. This homogeneous Magnetic field ensures precise switching points independent of radial ones Positional tolerances of the approach relative to the opening of the ring magnet or the respective radial position of the current switch within the Approach. Standard reed contacts are used as current switches suitable, but also Hall generators or other under the Effect of a magnetic field switching or signal generating Facilities can be used.

Claim 2 relates to a cup-shaped piston and a Arrangement of the ring magnet in the edge area of the piston.

Claim 3 describes the arrangement of the ring magnet on a Plastic molding, which in turn is attached to the piston.

Claim 4 relates to the attachment of the Plastic molded part on the piston.  

Claim 5 is directed to a one-piece execution of Cylinder housing and bottom (with approach), wherein according to claim 6 preferably aluminum can be used.

Claim 7 relates to the arrangement of the approach within of the gas space of the piston accumulator, claim 8 on the other hand Arrangement in the liquid space.

Claim 9 relates to a special application and to one Switching point that is before the maximum possible stroke of the piston and according to claim 10 can be about 70% of the maximum stroke.

Claim 11 is directed to an axially adjustable arrangement of the Current switch by means of a screw thread, for what according to claim 12 an anti-rotation device can be provided.

Claims 12 and 13 describe the optional possibility Power switch to use as a break or make contact.

Using the exemplary embodiments shown in the figures the invention is explained in more detail.

Fig. 1 shows a piston accumulator with gas switch on the gas chamber side and the piston in the liquid side end position.

Fig. 2 shows the same memory with a piston position which corresponds approximately to the switching position.

Fig. 3 shows a piston accumulator with a plastic molded part as a carrier for the ring magnet.

Fig. 4 shows a piston accumulator with liquid room side arrangement of the power switch.

A cup-shaped cylindrical housing 1 is closed by an integrally molded flat base 2 and a further welded flat base 3 . A piston 4 divides the interior of the housing 1 into two pressure spaces of variable size, namely a liquid space 5 adjacent to the base 3 and a gas space 6 adjacent to the base 2 . Liquid from a hydraulic system (not shown in detail) can be poured into the liquid space 5 via a liquid connection 7 arranged in the base 3 , or it can be released again to the hydraulic system. In the gas space 6 is a z. B. by a resistance welding nozzle 8 closable gas filling opening 9 a pressurized gas, mostly nitrogen, filled in to produce the so-called gas bias. The base 2 has a cylindrical extension 10, which projects into the gas space 6 and is made of a non-magnetizable material and has a central blind hole 11 , into which an axially adjustable current switch 12 is screwed from the outside into the area of the gas space 6 . The current switch 12 is connected in a manner not shown to a switching amplifier and can, for. B. be secured by a lock nut 13 against adjustment. The piston 4 has a depression 14 giving it a pot-shaped appearance on the gas chamber side, the depth of which is dimensioned at least such that the part of the projection 10 containing the current switch 12 can dip into the depression 14 . In the edge area 15 of the piston 4 is fixed to a non-magnetizable from a material, preferably plastic, retaining disc 16 prepared in the counterbore 14 which in turn is used to receive a centric serving as a permanent magnet ring magnet 17th The ring magnet 17 is provided with a central, cylindrical opening 18 , the diameter of which is just large enough that the shoulder 10 fits through with little radial play. In the event that the gap remaining between the ring magnet 17 and the extension 10 generates an excessive back pressure when the extension 10 is immersed, the retaining disk 16 can be provided with axially directed openings 19 .

Based on the illustration in FIG. 1, it is assumed that liquid is filled in via the liquid connection 7 . The piston 4 will move upward when the pressure of the liquid exceeds the gas bias. The ring magnet 17 will begin to run over the shoulder 10 at some point as the pressure continues to increase. The magnetic field of the ring magnet 17 then causes a switching operation in the current switch 12 after a predetermined stroke. Depending on the design of the current switch, it can itself be switched as a break contact and / or make contact. However, it is also possible to generate only one switching signal in the current switch and to have the switching process for the power current carried out by means of evaluation electronics by a switching amplifier in the opening and / or closing sense. If it is e.g. B. is about limiting the piston stroke before reaching the mechanical end position in terms of a certain degree of filling, a closer would be useful, which switches off the drive for the pressure source. When it comes to the fact that the piston 4 comes into the switching range at a predetermined pressure due to impermissibly high gas losses, an opener could be favorable for a signal function. At the same time, a make contact could switch off the drive. A closer for an upward movement and an opener for a downward movement could e.g. B. serve for the automatic replacement of a safety reserve. If the switching point should and can remain unchanged for the entire application, one could dispense with the permanent adjustability in favor of an adjustment and setting of the switching point, for. B. by caulking or squeezing the thread.

In Fig. 3, the same parts are given the same reference numerals and functionally similar parts with a reference number provided with a prime. Accordingly, with a piston 4 'the edge region 15 ' is turned outside so that a sleeve-shaped approach with a paragraph 20 is formed. Starting from the paragraph 20 , a groove 21 is inserted, which serves to receive the rim 22 , which is designed as an annular bead, of a truncated cone-shaped plastic part 23 , which extends beyond the edge region 15 'and is designed at its upper end as a holder 24 for the ring magnet 17 is. Breakthroughs 19 'in the lateral surface of the "truncated cone" serve a back pressure-free flow with a narrow gap between the ring magnet 17 and approach 10th

The interior of the housing 1 'is designed stepped, so that the sliding in the step 25 larger diameter piston 4 ' based on the total length of the housing 1 'can only perform a partial stroke and then on a shoulder 26 between the step of larger diameter and a step 27 smaller diameter would find its stop if the ring magnet 17 did not come to the switching point of the current switch 12 beforehand. This design makes sense wherever the gas space should be large in relation to the effective stroke. The plastic molding 23 avoids that either the piston 4 'or the approach 10 are unduly long. With regard to the switching function, there are no differences compared to the embodiment according to FIGS. 1 and 2.

In Fig. 4 (reference numerals partly with 1 or 2 dashes), the power switch 12 is arranged on the liquid side. An approach 10 'starts from a floor 3 '. Accordingly, a piston 4 '' has a countersink 14 '' from the liquid space 5 '' with an edge region 15 '' for receiving the holding disc 16 with the ring magnet 17 and the openings 19th The liquid connection 7 'is mounted radially directed from the lateral jacket of the bottom 3 ' and is connected via a channel 28 to the liquid space 5 '. The switching function is basically the same here as described above. The difference is only that once the gap between the ring magnet 17 and approach 10 is filled with gas and in this case with approach 10 'with liquid.

The invention is not restricted to the exemplary embodiments shown. So it is of course also possible to weld the floor on the gas chamber side. If one assumes that a base with a shoulder should be easier to manufacture than a comparatively long cylinder with a shoulder, this construction could even be cheaper than that shown in FIGS. 1 and 2. Of course it is also possible to weld both floors or z. B. to be fastened by screwing. The other construction, e.g. B. the arrangements of the seals or the openings has no influence on the inventive concept.

Reference list

1 ; 1 ′ housing 2 bottom
3 ; 3 ′ floor
4 ; 4 ′ pistons
5 ; 5 ′ liquid space
6 ; 6 ′; 6 ′ ′ gas space
7 ; 7 'liquid connection
8 resistance welding slugs
9 gas filling opening
10 ; 10 ′ approach
11 blind hole
12 power switches
13 lock nut
14 ; 14 ′; 14 '' countersink
15 ; 15 ′; 15 ′ ′ edge area
16 retaining washer
17 ring magnet
18 opening
19 ; 19 ′ breakthrough
20 paragraph
21 groove
22 ring bead
23 molded plastic part
24 bracket
25 level
26 paragraph
27 level

Claims (14)

1. Position-monitored piston accumulator with a substantially cylindrical housing provided with bottoms on both sides, with a cylindrical interior, a sealed guided piston dividing the interior into two pressure chambers of variable size, a blind hole serving to receive a magnetically actuated current switch in a non-magnetizable material, e.g. B. aluminum, manufactured base and a permanent magnet arranged on the piston within the pressure chamber adjacent to the base for triggering a switching operation of the current switch when a predetermined minimum distance between the current switch and permanent magnet is reached, characterized in that the blind hole ( 11 ) has a base ( 2 ; 3 ') Has an approach ( 10 ; 10 ') projecting into the adjacent pressure chamber (gas chamber 6 or 6 '; liquid chamber 5 '), the blind hole ( 11 ) in this approach ( 10 ; 10 ') into the area of the pressure chamber ( Gas space 6 or 6 '; liquid space 5 ') runs, the power switch ( 12 ) is arranged in this area and the permanent magnet is designed as a ring magnet ( 17 ) which engages around the neck ( 10 ; 10 ') with little play. 2. Piston accumulator according to claim 1, characterized in that the piston ( 4 ; 4 '') is cup-shaped and the ring magnet ( 17 ) is arranged inside the edge region ( 15 ; 15 '') of the piston opening. 3. Piston accumulator according to claim 1, characterized in that the interior has an axially from the end of the approach ( 10 ) distant stop step (paragraph 26 ) or the like for the piston ( 4 ') and approximately on the front side of the piston ( 4 ') a hollow plastic -Form part ( 23 ) is attached that at its free end (bracket 24) is provided for receiving the ring magnet ( 17 ). 4. Piston accumulator according to claim 3, characterized in that the plastic molded part ( 23 ) corresponds substantially to the jacket of a truncated cone and can snap into a corresponding annular groove ( 21 ) with an inwardly directed annular bead ( 22 ) arranged on its largest diameter , which is located at the end of an end turn (edge area 15 ') on the piston ( 4 '), onto which turn the plastic molded part ( 23 ) is pushed. 5. Piston accumulator according to one of the preceding claims, characterized in that the cylindrical housing ( 1 ; 1 ') and the base provided with the approach ( 2 ) are integrally formed. 6. Piston accumulator according to claim 5, characterized in that the housing ( 1 ; 1 ') and bottom ( 2 ; 2 ') are a molded aluminum part. 7. Piston accumulator according to one of the preceding claims, characterized in that the piston accumulator has a liquid space ( 5 ) provided with a liquid connection ( 7 ) and a gas space ( 6 ; 6 ') filled with a prestressed gas and the neck ( 10 ) in the Gas space ( 6 ; 6 ') protrudes. 8. Piston accumulator according to one of claims 1 to 6, characterized in that the projection ( 10 ') protrudes into the liquid space ( 5 '). 9. Piston accumulator according to one of the preceding claims for use in a brake control circuit of a vehicle, characterized in that the current switch ( 12 ) responds when the piston ( 4 ; 4 ') has made a predetermined stroke which is smaller than its maximum possible. 10. Piston accumulator according to claim 9, characterized in that the current switch ( 12 ) responds at approximately 70% of the maximum possible stroke. 11. Piston accumulator according to one of the preceding claims, characterized in that the blind hole ( 11 ) is provided at least in its outwardly facing region with an internal thread, the power switch ( 12 ) is arranged in an insert which can be screwed into the internal thread and the insert is axially adjustable . 12. Piston accumulator according to claim 11, characterized in that the insert is held in position by an anti-rotation device (lock nut 13 ). 13. Piston accumulator according to one of the preceding claims, characterized in that the current switch ( 12 ) or the switching amplifier connected to it is designed as an opener. 14. Piston accumulator according to one of claims 1 to 12, characterized in that the current switch ( 12 ) or the switching amplifier connected to it is designed as a closer.